RESUMEN
Ulvans from Ulva ohnoi, Ulva tepida and Ulva prolifera were extracted under mild acidic conditions, isolated and their composition and structure determined. The ulvans contained mostly rhamnose (31.6-46.7 mol%) and glucuronic acid (26.6-37.5 mol%), with smaller amounts of xylose (3.4-10.4 mol%) and iduronic acid (3.1-7.6 mol%). In addition, the ulvan samples also contained galactose (4.4-26.0 mol%). Glycosyl linkage analysis showed that ulvan from U. ohnoi contained mostly â4)-GlcpA-(1â and â3,4)-Rhap-(1â. Preparation of partially methylated alditol acetate standards of idose showed that U. ohnoi contained â4)-IdopA-(1â. In addition to these residues, glycosyl linkage analysis of U. tepida and U. prolifera showed the presence of â2,3,4)-Rhap-(1â, â4)-Xylp-(1â, â2,4)-GlcpA-(1â and â3,4)-GlcpA-(1â. These two species also contained galactose linkages. These data, together with nuclear magnetic resonance (NMR) spectroscopy indicated that U. ohnoi comprised mostly of type A3S ulvanobiuronic acid repeats [â4)-ß-D-GlcpA-(1â4)-α-L-Rhap3S-(1â], together with smaller amounts of type B3S ulvanobiuronic acid repeats [â4)-α-L-IdopA-(1â4)-α-L-Rhap3S-(1â] and ulvanobiose (U3S [â4)-ß-D-Xylp-(1â4)-α-L-Rhap3S-(1â]). NMR spectra of U. tepida and U. prolifera showed resonances not detected in U. ohnoi, highlighting the complexity of the ulvans from these species. Regardless of the structural diversity of the ulvan samples there was very little antioxidant or inhibitory activity detected on enzymatic processes investigated.
Asunto(s)
Polisacáridos/química , Ulva/metabolismo , Antioxidantes/química , Estructura MolecularRESUMEN
The therapeutic potential of Sargassum siliquosum grown in Australian tropical waters was tested in a rat model of metabolic syndrome. Forty-eight male Wistar rats were divided into four groups of 12 rats and each group was fed a different diet for 16 weeks: corn starch diet (C); high-carbohydrate, high-fat diet (H) containing fructose, sucrose, saturated and trans fats; and C or H diets with 5% S. siliquosum mixed into the food from weeks 9 to 16 (CS and HS). Obesity, hypertension, dyslipidaemia, impaired glucose tolerance, fatty liver and left ventricular fibrosis developed in H rats. In HS rats, S. siliquosum decreased body weight (H, 547 ± 14; HS, 490 ± 16 g), fat mass (H, 248 ± 27; HS, 193 ± 19 g), abdominal fat deposition and liver fat vacuole size but did not reverse cardiovascular and liver effects. H rats showed marked changes in gut microbiota compared to C rats, while S. siliquosum supplementation increased gut microbiota belonging to the family Muribaculaceae. This selective increase in gut microbiota likely complements the prebiotic actions of the alginates. Thus, S. siliquosum may be a useful dietary additive to decrease abdominal and liver fat deposition.